Unless you’re planning to build Web sites and applications that do nothing but publish content, and don’t accept input from your visitors, you’re going to need to understand and use forms.

Django provides a range of tools and libraries to help you build forms to accept input from site visitors, and then process and respond to the input.

HTML forms

In HTML, a form is a collection of elements inside <form>...</form> that allow a visitor to do things like enter text, select options, manipulate objects or controls, and so on, and then send that information back to the server.

Some of these form interface elements - text input or checkboxes - are fairly simple and are built into HTML itself. Others are much more complex; an interface that pops up a date picker or allows you to move a slider or manipulate controls will typically use JavaScript and CSS as well as HTML form <input> elements to achieve these effects.

As well as its <input> elements, a form must specify two things:

where: the URL to which the data corresponding to the user’s input should be returned

how: the HTTP method the data should be returned by

As an example, the login form for the Django admin contains several <input> elements: one of type="text" for the username, one of type="password" for the password, and one of type="submit" for the “Log in” button. It also contains some hidden text fields that the user doesn’t see, which Django uses to determine what to do next.

It also tells the browser that the form data should be sent to the URL specified in the <form>’s action attribute - /admin/ - and that it should be sent using the HTTP mechanism specified by the method attribute - post.

When the <input type="submit" value="Log in"> element is triggered, the data is returned to /admin/.

GET and POST

GET and POST are the only HTTP methods to use when dealing with forms.

Django’s login form is returned using the POST method, in which the browser bundles up the form data, encodes it for transmission, sends it to the server, and then receives back its response.

GET, by contrast, bundles the submitted data into a string, and uses this to compose a URL. The URL contains the address where the data must be sent, as well as the data keys and values. You can see this in action if you do a search in the Django documentation, which will produce a URL of the form https://docs.djangoproject.com/search/?q=forms&release=1.

GET and POST are typically used for different purposes.

Any request that could be used to change the state of the system - for example, a request that makes changes in the database - should use POST. GET should be used only for requests that do not affect the state of the system.

GET would also be unsuitable for a password form, because the password would appear in the URL, and thus, also in browser history and server logs, all in plain text. Neither would it be suitable for large quantities of data, or for binary data, such as an image. A Web application that uses GET requests for admin forms is a security risk: it can be easy for an attacker to mimic a form’s request to gain access to sensitive parts of the system. POST, coupled with other protections like Django’s CSRF protection offers more control over access.

On the other hand, GET is suitable for things like a web search form, because the URLs that represent a GET request can easily be bookmarked, shared, or resubmitted.

Django’s role in forms

Handling forms is a complex business. Consider Django’s admin, where numerous items of data of several different types may need to be prepared for display in a form, rendered as HTML, edited using a convenient interface, returned to the server, validated and cleaned up, and then saved or passed on for further processing.

Django’s form functionality can simplify and automate vast portions of this work, and can also do it more securely than most programmers would be able to do in code they wrote themselves.

Django handles three distinct parts of the work involved in forms:

preparing and restructuring data to make it ready for rendering

creating HTML forms for the data

receiving and processing submitted forms and data from the client

It is possible to write code that does all of this manually, but Django can take care of it all for you.

Forms in Django

We’ve described HTML forms briefly, but an HTML <form> is just one part of the machinery required.

In the context of a Web application, ‘form’ might refer to that HTML <form>, or to the Django Form that produces it, or to the structured data returned when it is submitted, or to the end-to-end working collection of these parts.

At the heart of this system of components is Django’s Form class. In much the same way that a Django model describes the logical structure of an object, its behavior, and the way its parts are represented to us, a Form class describes a form and determines how it works and appears.

In a similar way that a model class’s fields map to database fields, a form class’s fields map to HTML form <input> elements. (A ModelForm maps a model class’s fields to HTML form <input> elements via a Form; this is what the Django admin is based upon.)

A form’s fields are themselves classes; they manage form data and perform validation when a form is submitted. A DateField and a FileField handle very different kinds of data and have to do different things with it.

A form field is represented to a user in the browser as an HTML “widget” - a piece of user interface machinery. Each field type has an appropriate default Widget class, but these can be overridden as required.

Instantiating, processing, and rendering forms

When rendering an object in Django, we generally:

get hold of it in the view (fetch it from the database, for example)

pass it to the template context

expand it to HTML markup using template variables

Rendering a form in a template involves nearly the same work as rendering any other kind of object, but there are some key differences.

In the case of a model instance that contained no data, it would rarely if ever be useful to do anything with it in a template. On the other hand, it makes perfect sense to render an unpopulated form - that’s what we do when we want the user to populate it.

So when we handle a model instance in a view, we typically retrieve it from the database. When we’re dealing with a form we typically instantiate it in the view.

When we instantiate a form, we can opt to leave it empty or pre-populate it, for example with:

data from a saved model instance (as in the case of admin forms for editing)

data that we have collated from other sources

data received from a previous HTML form submission

The last of these cases is the most interesting, because it’s what makes it possible for users not just to read a Web site, but to send information back to it too.

Building a form

The work that needs to be done

Suppose you want to create a simple form on your Web site, in order to obtain the user’s name. You’d need something like this in your template:

This tells the browser to return the form data to the URL /your-name/, using the POST method. It will display a text field, labeled “Your name:”, and a button marked “OK”. If the template context contains a current_name variable, that will be used to pre-fill the your_name field.

You’ll need a view that renders the template containing the HTML form, and that can supply the current_name field as appropriate.

When the form is submitted, the POST request which is sent to the server will contain the form data.

Now you’ll also need a view corresponding to that /your-name/ URL which will find the appropriate key/value pairs in the request, and then process them.

This is a very simple form. In practice, a form might contain dozens or hundreds of fields, many of which might need to be pre-populated, and we might expect the user to work through the edit-submit cycle several times before concluding the operation.

We might require some validation to occur in the browser, even before the form is submitted; we might want to use much more complex fields, that allow the user to do things like pick dates from a calendar and so on.

At this point it’s much easier to get Django to do most of this work for us.

This defines a Form class with a single field (your_name). We’ve applied a human-friendly label to the field, which will appear in the <label> when it’s rendered (although in this case, the label we specified is actually the same one that would be generated automatically if we had omitted it).

The field’s maximum allowable length is defined by max_length. This does two things. It puts a maxlength="100" on the HTML <input> (so the browser should prevent the user from entering more than that number of characters in the first place). It also means that when Django receives the form back from the browser, it will validate the length of the data.

A Form instance has an is_valid() method, which runs validation routines for all its fields. When this method is called, if all fields contain valid data, it will:

Note that it does not include the <form> tags, or a submit button. We’ll have to provide those ourselves in the template.

The view

Form data sent back to a Django Web site is processed by a view, generally the same view which published the form. This allows us to reuse some of the same logic.

To handle the form we need to instantiate it in the view for the URL where we want it to be published:

from django.shortcuts import render
from django.http import HttpResponseRedirect
from .forms import NameForm
def get_name(request):
# if this is a POST request we need to process the form data
if request.method == 'POST':
# create a form instance and populate it with data from the request:
form = NameForm(request.POST)
# check whether it's valid:
if form.is_valid():
# process the data in form.cleaned_data as required
# ...
# redirect to a new URL:
return HttpResponseRedirect('/thanks/')
# if a GET (or any other method) we'll create a blank form
else:
form = NameForm()
return render(request, 'name.html', {'form': form})

If we arrive at this view with a GET request, it will create an empty form instance and place it in the template context to be rendered. This is what we can expect to happen the first time we visit the URL.

If the form is submitted using a POST request, the view will once again create a form instance and populate it with data from the request: form =
NameForm(request.POST) This is called “binding data to the form” (it is now a bound form).

We call the form’s is_valid() method; if it’s not True, we go back to the template with the form. This time the form is no longer empty (unbound) so the HTML form will be populated with the data previously submitted, where it can be edited and corrected as required.

If is_valid() is True, we’ll now be able to find all the validated form data in its cleaned_data attribute. We can use this data to update the database or do other processing before sending an HTTP redirect to the browser telling it where to go next.

The template

We don’t need to do much in our name.html template. The simplest example is:

All the form’s fields and their attributes will be unpacked into HTML markup from that {{ form }} by Django’s template language.

Forms and Cross Site Request Forgery protection

Django ships with an easy-to-use protection against Cross Site Request Forgeries. When submitting a form via POST with CSRF protection enabled you must use the csrf_token template tag as in the preceding example. However, since CSRF protection is not directly tied to forms in templates, this tag is omitted from the following examples in this document.

HTML5 input types and browser validation

If your form includes a URLField, an EmailField or any integer field type, Django will use the url, email and number HTML5 input types. By default, browsers may apply their own validation on these fields, which may be stricter than Django’s validation. If you would like to disable this behavior, set the novalidate attribute on the form tag, or specify a different widget on the field, like TextInput.

We now have a working web form, described by a Django Form, processed by a view, and rendered as an HTML <form>.

That’s all you need to get started, but the forms framework puts a lot more at your fingertips. Once you understand the basics of the process described above, you should be prepared to understand other features of the forms system and ready to learn a bit more about the underlying machinery.

More about Django Form classes

In fact if your form is going to be used to directly add or edit a Django model, a ModelForm can save you a great deal of time, effort, and code, because it will build a form, along with the appropriate fields and their attributes, from a Model class.

Our earlier form used a single field, your_name, a CharField. In this case, our form has four fields: subject, message, sender and cc_myself. CharField, EmailField and BooleanField are just three of the available field types; a full list can be found in Form fields.

Widgets

Each form field has a corresponding Widget class, which in turn corresponds to an HTML form widget such as <input
type="text">.

In most cases, the field will have a sensible default widget. For example, by default, a CharField will have a TextInput widget, that produces an <input type="text"> in the HTML. If you needed <textarea> instead, you’d specify the appropriate widget when defining your form field, as we have done for the message field.

Field data

Whatever the data submitted with a form, once it has been successfully validated by calling is_valid() (and is_valid() has returned True), the validated form data will be in the form.cleaned_data dictionary. This data will have been nicely converted into Python types for you.

Note

You can still access the unvalidated data directly from request.POST at this point, but the validated data is better.

In the contact form example above, cc_myself will be a boolean value. Likewise, fields such as IntegerField and FloatField convert values to a Python int and float respectively.

Here’s how the form data could be processed in the view that handles this form:

Some field types need some extra handling. For example, files that are uploaded using a form need to be handled differently (they can be retrieved from request.FILES, rather than request.POST). For details of how to handle file uploads with your form, see Binding uploaded files to a form.

Working with form templates

All you need to do to get your form into a template is to place the form instance into the template context. So if your form is called form in the context, {{ form }} will render its <label> and <input> elements appropriately.

Form rendering options

Additional form template furniture

Don’t forget that a form’s output does not include the surrounding <form> tags, or the form’s submit control. You will have to provide these yourself.

There are other output options though for the <label>/<input> pairs:

{{ form.as_table }} will render them as table cells wrapped in <tr> tags

{{ form.as_p }} will render them wrapped in <p> tags

{{ form.as_ul }} will render them wrapped in <li> tags

Note that you’ll have to provide the surrounding <table> or <ul> elements yourself.

Note that each form field has an ID attribute set to id_<field-name>, which is referenced by the accompanying label tag. This is important in ensuring that forms are accessible to assistive technology such as screen reader software. You can also customize the way in which labels and ids are generated.

Rendering fields manually

We don’t have to let Django unpack the form’s fields; we can do it manually if we like (allowing us to reorder the fields, for example). Each field is available as an attribute of the form using {{ form.name_of_field }}, and in a Django template, will be rendered appropriately. For example:

Rendering form error messages

Of course, the price of this flexibility is more work. Until now we haven’t had to worry about how to display form errors, because that’s taken care of for us. In this example we have had to make sure we take care of any errors for each field and any errors for the form as a whole. Note {{ form.non_field_errors
}} at the top of the form and the template lookup for errors on each field.

Using {{ form.name_of_field.errors }} displays a list of form errors, rendered as an unordered list. This might look like:

<ul class="errorlist">
<li>Sender is required.</li>
</ul>

The list has a CSS class of errorlist to allow you to style its appearance. If you wish to further customize the display of errors you can do so by looping over them:

Non-field errors (and/or hidden field errors that are rendered at the top of the form when using helpers like form.as_p()) will be rendered with an additional class of nonfield to help distinguish them from field-specific errors. For example, {{ form.non_field_errors }} would look like:

The field’s label wrapped in the appropriate HTML <label> tag. This includes the form’s label_suffix. For example, the default label_suffix is a colon:

<label for="id_email">Email address:</label>

{{ field.id_for_label }}

The ID that will be used for this field (id_email in the example above). If you are constructing the label manually, you may want to use this in lieu of label_tag. It’s also useful, for example, if you have some inline JavaScript and want to avoid hardcoding the field’s ID.

{{ field.value }}

The value of the field. e.g someone@example.com.

{{ field.html_name }}

The name of the field that will be used in the input element’s name field. This takes the form prefix into account, if it has been set.

{{ field.help_text }}

Any help text that has been associated with the field.

{{ field.errors }}

Outputs a <ul class="errorlist"> containing any validation errors corresponding to this field. You can customize the presentation of the errors with a {% for error in field.errors %} loop. In this case, each object in the loop is a simple string containing the error message.

{{ field.is_hidden }}

This attribute is True if the form field is a hidden field and False otherwise. It’s not particularly useful as a template variable, but could be useful in conditional tests such as:

{% if field.is_hidden %}
{# Do something special #}
{% endif %}

{{ field.field }}

The Field instance from the form class that this BoundField wraps. You can use it to access Field attributes, e.g. {{ char_field.field.max_length }}.

Looping over hidden and visible fields

If you’re manually laying out a form in a template, as opposed to relying on Django’s default form layout, you might want to treat <input type="hidden"> fields differently from non-hidden fields. For example, because hidden fields don’t display anything, putting error messages “next to” the field could cause confusion for your users – so errors for those fields should be handled differently.

Django provides two methods on a form that allow you to loop over the hidden and visible fields independently: hidden_fields() and visible_fields(). Here’s a modification of an earlier example that uses these two methods:

This example does not handle any errors in the hidden fields. Usually, an error in a hidden field is a sign of form tampering, since normal form interaction won’t alter them. However, you could easily insert some error displays for those form errors, as well.

Reusable form templates

If your site uses the same rendering logic for forms in multiple places, you can reduce duplication by saving the form’s loop in a standalone template and using the include tag to reuse it in other templates: